redsox4life

STOP SIMPING FOR MEEEEEEEEEEEEEEEEEE

E

blue jays still are bad

The missile knows where it is at all times. It knows this because it knows where it isn't, by subtracting where it is, from where it isn't, or where it isn't, from where it is, whichever is greater, it obtains a difference, or deviation. The guidance sub-system uses deviations to generate corrective commands to drive the missile from a position where it is, to a position where it isn't, and arriving at a position where it wasn't, it now is. Consequently, the position where it is, is now the position that it wasn't, and it follows that the position where it was, is now the position that it isn't. In the event of the position that it is in is not the position that it wasn't, the system has required a variation. The variation being the difference between where the missile is, and where it wasn't. If variation is considered to be a significant factor, it too, may be corrected by the GEA. However, the missile must also know where it was. The missile guidance computance scenario works as follows: Because a variation has modified some of the information the missile has obtained, it is not sure just where it is, however it is sure where it isn't, within reason, and it knows where it was. It now subracts where it should be, from where it wasn't, or vice versa. By differentiating this from the algebraic sum og where it shouldn't be, and where it was. It is able to obtain a deviation, and a variation, which is called "air"

The simps knows where mookie is at all times. They know this because they knows where she isn't. By subtracting where she is from where she isn't, or where she isn't from where she is (whichever is greater), they obtains a difference, or deviation. The simp guidance subsystem uses deviations to generate corrective commands to drive the simps from a position where it is to a position closer to mookie, and arriving at a position where it wasn't, it now is. Consequently, the position where it is, is now the position that it wasn't, and it follows that the position that it was, is now the position that it isn't.
In the event that the position that it is in is not closer to mookie, the system has acquired a variation, the variation being the difference between where mookie is, and where she wasn't. If variation is considered to be a significant factor, it too may be corrected by the GEA. However, the simps must also know where they was.

The simp guidance scenario works as follows. Because a variation has modified some of the information the simps have obtained, it is not sure just where it is. However, it is sure where mookie isn't, within reason, and the simps knows where she was. It now subtracts where the simps should be from where they weren't, or vice-versa, and by differentiating this from the algebraic sum of where the simps shouldn't be, and where they were, they are able to obtain the deviation and its variation, which is called error.

The missile knows where it is at all times. It knows this because it knows where it isn't, by subtracting where it is, from where it isn't, or where it isn't, from where it is, whichever is greater, it obtains a difference, or deviation. The guidance sub-system uses deviations to generate corrective commands to drive the missile from a position where it is, to a position where it isn't, and arriving at a position where it wasn't, it now is. Consequently, the position where it is, is now the position that it wasn't, and it follows that the position where it was, is now the position that it isn't. In the event of the position that it is in is not the position that it wasn't, the system has required a variation. The variation being the difference between where the missile is, and where it wasn't. If variation is considered to be a significant factor, it too, may be corrected by the GEA. However, the missile must also know where it was. The missile guidance computance scenario works as follows: Because a variation has modified some of the information the missile has obtained, it is not sure just where it is, however it is sure where it isn't, within reason, and it knows where it was. It now subracts where it should be, from where it wasn't, or vice versa. By differentiating this from the algebraic sum og where it shouldn't be, and where it was. It is able to obtain a deviation, and a variation, which is called "air"

The simps knows where mookie is at all times. They know this because they knows where she isn't. By subtracting where she is from where she isn't, or where she isn't from where she is (whichever is greater), they obtains a difference, or deviation. The simp guidance subsystem uses deviations to generate corrective commands to drive the simps from a position where it is to a position closer to mookie, and arriving at a position where it wasn't, it now is. Consequently, the position where it is, is now the position that it wasn't, and it follows that the position that it was, is now the position that it isn't.
In the event that the position that it is in is not closer to mookie, the system has acquired a variation, the variation being the difference between where mookie is, and where she wasn't. If variation is considered to be a significant factor, it too may be corrected by the GEA. However, the simps must also know where they was.

The simp guidance scenario works as follows. Because a variation has modified some of the information the simps have obtained, it is not sure just where it is. However, it is sure where mookie isn't, within reason, and the simps knows where she was. It now subtracts where the simps should be from where they weren't, or vice-versa, and by differentiating this from the algebraic sum of where the simps shouldn't be, and where they were, they are able to obtain the deviation and its variation, which is called error.

The missile knows where it is at all times. It knows this because it knows where it isn't, by subtracting where it is, from where it isn't, or where it isn't, from where it is, whichever is greater, it obtains a difference, or deviation. The guidance sub-system uses deviations to generate corrective commands to drive the missile from a position where it is, to a position where it isn't, and arriving at a position where it wasn't, it now is. Consequently, the position where it is, is now the position that it wasn't, and it follows that the position where it was, is now the position that it isn't. In the event of the position that it is in is not the position that it wasn't, the system has required a variation. The variation being the difference between where the missile is, and where it wasn't. If variation is considered to be a significant factor, it too, may be corrected by the GEA. However, the missile must also know where it was. The missile guidance computance scenario works as follows: Because a variation has modified some of the information the missile has obtained, it is not sure just where it is, however it is sure where it isn't, within reason, and it knows where it was. It now subracts where it should be, from where it wasn't, or vice versa. By differentiating this from the algebraic sum og where it shouldn't be, and where it was. It is able to obtain a deviation, and a variation, which is called "air"

The simps knows where mookie is at all times. They know this because they knows where she isn't. By subtracting where she is from where she isn't, or where she isn't from where she is (whichever is greater), they obtains a difference, or deviation. The simp guidance subsystem uses deviations to generate corrective commands to drive the simps from a position where it is to a position closer to mookie, and arriving at a position where it wasn't, it now is. Consequently, the position where it is, is now the position that it wasn't, and it follows that the position that it was, is now the position that it isn't.
In the event that the position that it is in is not closer to mookie, the system has acquired a variation, the variation being the difference between where mookie is, and where she wasn't. If variation is considered to be a significant factor, it too may be corrected by the GEA. However, the simps must also know where they was.

The simp guidance scenario works as follows. Because a variation has modified some of the information the simps have obtained, it is not sure just where it is. However, it is sure where mookie isn't, within reason, and the simps knows where she was. It now subtracts where the simps should be from where they weren't, or vice-versa, and by differentiating this from the algebraic sum of where the simps shouldn't be, and where they were, they are able to obtain the deviation and its variation, which is called error.

The missile knows where it is at all times. It knows this because it knows where it isn't, by subtracting where it is, from where it isn't, or where it isn't, from where it is, whichever is greater, it obtains a difference, or deviation. The guidance sub-system uses deviations to generate corrective commands to drive the missile from a position where it is, to a position where it isn't, and arriving at a position where it wasn't, it now is. Consequently, the position where it is, is now the position that it wasn't, and it follows that the position where it was, is now the position that it isn't. In the event of the position that it is in is not the position that it wasn't, the system has required a variation. The variation being the difference between where the missile is, and where it wasn't. If variation is considered to be a significant factor, it too, may be corrected by the GEA. However, the missile must also know where it was. The missile guidance computance scenario works as follows: Because a variation has modified some of the information the missile has obtained, it is not sure just where it is, however it is sure where it isn't, within reason, and it knows where it was. It now subracts where it should be, from where it wasn't, or vice versa. By differentiating this from the algebraic sum og where it shouldn't be, and where it was. It is able to obtain a deviation, and a variation, which is called "air"

The simps knows where mookie is at all times. They know this because they knows where she isn't. By subtracting where she is from where she isn't, or where she isn't from where she is (whichever is greater), they obtains a difference, or deviation. The simp guidance subsystem uses deviations to generate corrective commands to drive the simps from a position where it is to a position closer to mookie, and arriving at a position where it wasn't, it now is. Consequently, the position where it is, is now the position that it wasn't, and it follows that the position that it was, is now the position that it isn't.
In the event that the position that it is in is not closer to mookie, the system has acquired a variation, the variation being the difference between where mookie is, and where she wasn't. If variation is considered to be a significant factor, it too may be corrected by the GEA. However, the simps must also know where they was.

The simp guidance scenario works as follows. Because a variation has modified some of the information the simps have obtained, it is not sure just where it is. However, it is sure where mookie isn't, within reason, and the simps knows where she was. It now subtracts where the simps should be from where they weren't, or vice-versa, and by differentiating this from the algebraic sum of where the simps shouldn't be, and where they were, they are able to obtain the deviation and its variation, which is called error.

nope, not very good

The simps knows where mookie is at all times. They know this because they knows where she isn't. By subtracting where she is from where she isn't, or where she isn't from where she is (whichever is greater), they obtains a difference, or deviation. The simp guidance subsystem uses deviations to generate corrective commands to drive the simps from a position where it is to a position closer to mookie, and arriving at a position where it wasn't, it now is. Consequently, the position where it is, is now the position that it wasn't, and it follows that the position that it was, is now the position that it isn't.
In the event that the position that it is in is not closer to mookie, the system has acquired a variation, the variation being the difference between where mookie is, and where she wasn't. If variation is considered to be a significant factor, it too may be corrected by the GEA. However, the simps must also know where they was.

The simp guidance scenario works as follows. Because a variation has modified some of the information the simps have obtained, it is not sure just where it is. However, it is sure where mookie isn't, within reason, and the simps knows where she was. It now subtracts where the simps should be from where they weren't, or vice-versa, and by differentiating this from the algebraic sum of where the simps shouldn't be, and where they were, they are able to obtain the deviation and its variation, which is called error.

The missile knows where it is at all times. It knows this because it knows where it isn't, by subtracting where it is, from where it isn't, or where it isn't, from where it is, whichever is greater, it obtains a difference, or deviation. The guidance sub-system uses deviations to generate corrective commands to drive the missile from a position where it is, to a position where it isn't, and arriving at a position where it wasn't, it now is. Consequently, the position where it is, is now the position that it wasn't, and it follows that the position where it was, is now the position that it isn't. In the event of the position that it is in is not the position that it wasn't, the system has required a variation. The variation being the difference between where the missile is, and where it wasn't. If variation is considered to be a significant factor, it too, may be corrected by the GEA. However, the missile must also know where it was. The missile guidance computance scenario works as follows: Because a variation has modified some of the information the missile has obtained, it is not sure just where it is, however it is sure where it isn't, within reason, and it knows where it was. It now subracts where it should be, from where it wasn't, or vice versa. By differentiating this from the algebraic sum og where it shouldn't be, and where it was. It is able to obtain a deviation, and a variation, which is called "air"

The simps knows where mookie is at all times. They know this because they knows where she isn't. By subtracting where she is from where she isn't, or where she isn't from where she is (whichever is greater), they obtains a difference, or deviation. The simp guidance subsystem uses deviations to generate corrective commands to drive the simps from a position where it is to a position closer to mookie, and arriving at a position where it wasn't, it now is. Consequently, the position where it is, is now the position that it wasn't, and it follows that the position that it was, is now the position that it isn't.
In the event that the position that it is in is not closer to mookie, the system has acquired a variation, the variation being the difference between where mookie is, and where she wasn't. If variation is considered to be a significant factor, it too may be corrected by the GEA. However, the simps must also know where they was.

The simp guidance scenario works as follows. Because a variation has modified some of the information the simps have obtained, it is not sure just where it is. However, it is sure where mookie isn't, within reason, and the simps knows where she was. It now subtracts where the simps should be from where they weren't, or vice-versa, and by differentiating this from the algebraic sum of where the simps shouldn't be, and where they were, they are able to obtain the deviation and its variation, which is called error.

The missile knows where it is at all times. It knows this because it knows where it isn't, by subtracting where it is, from where it isn't, or where it isn't, from where it is, whichever is greater, it obtains a difference, or deviation. The guidance sub-system uses deviations to generate corrective commands to drive the missile from a position where it is, to a position where it isn't, and arriving at a position where it wasn't, it now is. Consequently, the position where it is, is now the position that it wasn't, and it follows that the position where it was, is now the position that it isn't. In the event of the position that it is in is not the position that it wasn't, the system has required a variation. The variation being the difference between where the missile is, and where it wasn't. If variation is considered to be a significant factor, it too, may be corrected by the GEA. However, the missile must also know where it was. The missile guidance computance scenario works as follows: Because a variation has modified some of the information the missile has obtained, it is not sure just where it is, however it is sure where it isn't, within reason, and it knows where it was. It now subracts where it should be, from where it wasn't, or vice versa. By differentiating this from the algebraic sum og where it shouldn't be, and where it was. It is able to obtain a deviation, and a variation, which is called "air"

The simps knows where mookie is at all times. They know this because they knows where she isn't. By subtracting where she is from where she isn't, or where she isn't from where she is (whichever is greater), they obtains a difference, or deviation. The simp guidance subsystem uses deviations to generate corrective commands to drive the simps from a position where it is to a position closer to mookie, and arriving at a position where it wasn't, it now is. Consequently, the position where it is, is now the position that it wasn't, and it follows that the position that it was, is now the position that it isn't.
In the event that the position that it is in is not closer to mookie, the system has acquired a variation, the variation being the difference between where mookie is, and where she wasn't. If variation is considered to be a significant factor, it too may be corrected by the GEA. However, the simps must also know where they was.

The simp guidance scenario works as follows. Because a variation has modified some of the information the simps have obtained, it is not sure just where it is. However, it is sure where mookie isn't, within reason, and the simps knows where she was. It now subtracts where the simps should be from where they weren't, or vice-versa, and by differentiating this from the algebraic sum of where the simps shouldn't be, and where they were, they are able to obtain the deviation and its variation, which is called error.

The missile knows where it is at all times. It knows this because it knows where it isn't, by subtracting where it is, from where it isn't, or where it isn't, from where it is, whichever is greater, it obtains a difference, or deviation. The guidance sub-system uses deviations to generate corrective commands to drive the missile from a position where it is, to a position where it isn't, and arriving at a position where it wasn't, it now is. Consequently, the position where it is, is now the position that it wasn't, and it follows that the position where it was, is now the position that it isn't. In the event of the position that it is in is not the position that it wasn't, the system has required a variation. The variation being the difference between where the missile is, and where it wasn't. If variation is considered to be a significant factor, it too, may be corrected by the GEA. However, the missile must also know where it was. The missile guidance computance scenario works as follows: Because a variation has modified some of the information the missile has obtained, it is not sure just where it is, however it is sure where it isn't, within reason, and it knows where it was. It now subracts where it should be, from where it wasn't, or vice versa. By differentiating this from the algebraic sum og where it shouldn't be, and where it was. It is able to obtain a deviation, and a variation, which is called "air"

The simps knows where mookie is at all times. They know this because they knows where she isn't. By subtracting where she is from where she isn't, or where she isn't from where she is (whichever is greater), they obtains a difference, or deviation. The simp guidance subsystem uses deviations to generate corrective commands to drive the simps from a position where it is to a position closer to mookie, and arriving at a position where it wasn't, it now is. Consequently, the position where it is, is now the position that it wasn't, and it follows that the position that it was, is now the position that it isn't.
In the event that the position that it is in is not closer to mookie, the system has acquired a variation, the variation being the difference between where mookie is, and where she wasn't. If variation is considered to be a significant factor, it too may be corrected by the GEA. However, the simps must also know where they was.

The simp guidance scenario works as follows. Because a variation has modified some of the information the simps have obtained, it is not sure just where it is. However, it is sure where mookie isn't, within reason, and the simps knows where she was. It now subtracts where the simps should be from where they weren't, or vice-versa, and by differentiating this from the algebraic sum of where the simps shouldn't be, and where they were, they are able to obtain the deviation and its variation, which is called error.

The missile knows where it is at all times. It knows this because it knows where it isn't, by subtracting where it is, from where it isn't, or where it isn't, from where it is, whichever is greater, it obtains a difference, or deviation. The guidance sub-system uses deviations to generate corrective commands to drive the missile from a position where it is, to a position where it isn't, and arriving at a position where it wasn't, it now is. Consequently, the position where it is, is now the position that it wasn't, and it follows that the position where it was, is now the position that it isn't. In the event of the position that it is in is not the position that it wasn't, the system has required a variation. The variation being the difference between where the missile is, and where it wasn't. If variation is considered to be a significant factor, it too, may be corrected by the GEA. However, the missile must also know where it was. The missile guidance computance scenario works as follows: Because a variation has modified some of the information the missile has obtained, it is not sure just where it is, however it is sure where it isn't, within reason, and it knows where it was. It now subracts where it should be, from where it wasn't, or vice versa. By differentiating this from the algebraic sum og where it shouldn't be, and where it was. It is able to obtain a deviation, and a variation, which is called "air"

The simps knows where mookie is at all times. They know this because they knows where she isn't. By subtracting where she is from where she isn't, or where she isn't from where she is (whichever is greater), they obtains a difference, or deviation. The simp guidance subsystem uses deviations to generate corrective commands to drive the simps from a position where it is to a position closer to mookie, and arriving at a position where it wasn't, it now is. Consequently, the position where it is, is now the position that it wasn't, and it follows that the position that it was, is now the position that it isn't.
In the event that the position that it is in is not closer to mookie, the system has acquired a variation, the variation being the difference between where mookie is, and where she wasn't. If variation is considered to be a significant factor, it too may be corrected by the GEA. However, the simps must also know where they was.

The simp guidance scenario works as follows. Because a variation has modified some of the information the simps have obtained, it is not sure just where it is. However, it is sure where mookie isn't, within reason, and the simps knows where she was. It now subtracts where the simps should be from where they weren't, or vice-versa, and by differentiating this from the algebraic sum of where the simps shouldn't be, and where they were, they are able to obtain the deviation and its variation, which is called error.

The missile knows where it is at all times. It knows this because it knows where it isn't, by subtracting where it is, from where it isn't, or where it isn't, from where it is, whichever is greater, it obtains a difference, or deviation. The guidance sub-system uses deviations to generate corrective commands to drive the missile from a position where it is, to a position where it isn't, and arriving at a position where it wasn't, it now is. Consequently, the position where it is, is now the position that it wasn't, and it follows that the position where it was, is now the position that it isn't. In the event of the position that it is in is not the position that it wasn't, the system has required a variation. The variation being the difference between where the missile is, and where it wasn't. If variation is considered to be a significant factor, it too, may be corrected by the GEA. However, the missile must also know where it was. The missile guidance computance scenario works as follows: Because a variation has modified some of the information the missile has obtained, it is not sure just where it is, however it is sure where it isn't, within reason, and it knows where it was. It now subracts where it should be, from where it wasn't, or vice versa. By differentiating this from the algebraic sum og where it shouldn't be, and where it was. It is able to obtain a deviation, and a variation, which is called "air"

The simps knows where mookie is at all times. They know this because they knows where she isn't. By subtracting where she is from where she isn't, or where she isn't from where she is (whichever is greater), they obtains a difference, or deviation. The simp guidance subsystem uses deviations to generate corrective commands to drive the simps from a position where it is to a position closer to mookie, and arriving at a position where it wasn't, it now is. Consequently, the position where it is, is now the position that it wasn't, and it follows that the position that it was, is now the position that it isn't.
In the event that the position that it is in is not closer to mookie, the system has acquired a variation, the variation being the difference between where mookie is, and where she wasn't. If variation is considered to be a significant factor, it too may be corrected by the GEA. However, the simps must also know where they was.

The simp guidance scenario works as follows. Because a variation has modified some of the information the simps have obtained, it is not sure just where it is. However, it is sure where mookie isn't, within reason, and the simps knows where she was. It now subtracts where the simps should be from where they weren't, or vice-versa, and by differentiating this from the algebraic sum of where the simps shouldn't be, and where they were, they are able to obtain the deviation and its variation, which is called error.

The missile knows where it is at all times. It knows this because it knows where it isn't, by subtracting where it is, from where it isn't, or where it isn't, from where it is, whichever is greater, it obtains a difference, or deviation. The guidance sub-system uses deviations to generate corrective commands to drive the missile from a position where it is, to a position where it isn't, and arriving at a position where it wasn't, it now is. Consequently, the position where it is, is now the position that it wasn't, and it follows that the position where it was, is now the position that it isn't. In the event of the position that it is in is not the position that it wasn't, the system has required a variation. The variation being the difference between where the missile is, and where it wasn't. If variation is considered to be a significant factor, it too, may be corrected by the GEA. However, the missile must also know where it was. The missile guidance computance scenario works as follows: Because a variation has modified some of the information the missile has obtained, it is not sure just where it is, however it is sure where it isn't, within reason, and it knows where it was. It now subracts where it should be, from where it wasn't, or vice versa. By differentiating this from the algebraic sum og where it shouldn't be, and where it was. It is able to obtain a deviation, and a variation, which is called "air"

The simps knows where mookie is at all times. They know this because they knows where she isn't. By subtracting where she is from where she isn't, or where she isn't from where she is (whichever is greater), they obtains a difference, or deviation. The simp guidance subsystem uses deviations to generate corrective commands to drive the simps from a position where it is to a position closer to mookie, and arriving at a position where it wasn't, it now is. Consequently, the position where it is, is now the position that it wasn't, and it follows that the position that it was, is now the position that it isn't.
In the event that the position that it is in is not closer to mookie, the system has acquired a variation, the variation being the difference between where mookie is, and where she wasn't. If variation is considered to be a significant factor, it too may be corrected by the GEA. However, the simps must also know where they was.

The simp guidance scenario works as follows. Because a variation has modified some of the information the simps have obtained, it is not sure just where it is. However, it is sure where mookie isn't, within reason, and the simps knows where she was. It now subtracts where the simps should be from where they weren't, or vice-versa, and by differentiating this from the algebraic sum of where the simps shouldn't be, and where they were, they are able to obtain the deviation and its variation, which is called error.

The missile knows where it is at all times. It knows this because it knows where it isn't, by subtracting where it is, from where it isn't, or where it isn't, from where it is, whichever is greater, it obtains a difference, or deviation. The guidance sub-system uses deviations to generate corrective commands to drive the missile from a position where it is, to a position where it isn't, and arriving at a position where it wasn't, it now is. Consequently, the position where it is, is now the position that it wasn't, and it follows that the position where it was, is now the position that it isn't. In the event of the position that it is in is not the position that it wasn't, the system has required a variation. The variation being the difference between where the missile is, and where it wasn't. If variation is considered to be a significant factor, it too, may be corrected by the GEA. However, the missile must also know where it was. The missile guidance computance scenario works as follows: Because a variation has modified some of the information the missile has obtained, it is not sure just where it is, however it is sure where it isn't, within reason, and it knows where it was. It now subracts where it should be, from where it wasn't, or vice versa. By differentiating this from the algebraic sum og where it shouldn't be, and where it was. It is able to obtain a deviation, and a variation, which is called "air"

The simps knows where mookie is at all times. They know this because they knows where she isn't. By subtracting where she is from where she isn't, or where she isn't from where she is (whichever is greater), they obtains a difference, or deviation. The simp guidance subsystem uses deviations to generate corrective commands to drive the simps from a position where it is to a position closer to mookie, and arriving at a position where it wasn't, it now is. Consequently, the position where it is, is now the position that it wasn't, and it follows that the position that it was, is now the position that it isn't.
In the event that the position that it is in is not closer to mookie, the system has acquired a variation, the variation being the difference between where mookie is, and where she wasn't. If variation is considered to be a significant factor, it too may be corrected by the GEA. However, the simps must also know where they was.

The simp guidance scenario works as follows. Because a variation has modified some of the information the simps have obtained, it is not sure just where it is. However, it is sure where mookie isn't, within reason, and the simps knows where she was. It now subtracts where the simps should be from where they weren't, or vice-versa, and by differentiating this from the algebraic sum of where the simps shouldn't be, and where they were, they are able to obtain the deviation and its variation, which is called error.